IntroductionWorldwide, crystalline

Introduction
Worldwide, crystalline silica such as quartz is found in
abundance in the Earth’s shell. Therefore, stoneworkrelated
industries and occupations in which the worker is
potentially exposed to this mineral include gold mining;
concrete production; construction industry; tunneling;
cement industry; brick manufacturing; pottery and ceramic
work; silica sand, granite, and diatomaceous earth industries;
and iron and steel founding [1]. According to the
International Agency for Research on Cancer (IARC),
crystalline silica in quartz dust is classified as a human
carcinogen and thus may cause lung carcinoma [2]. This
classification is based on a backbone of studies and pooled
meta-analyses that show an association between occupational
inhaled quartz dust and lung cancer risk [1, 3–8].
Furthermore, strong epidemiological evidence supports the
association between long-term exposure to crystalline silica
and severe health effects, e.g., chronic obstructive
pulmonary diseases (COPD), cardiovascular disease, and
rheumatoid arthritis [9–13].
Besides work-related exposure to harmful substances,
cigarette smoking is a key lifestyle factor that affects
K. Hochgatterer
Centre of Occupational Health Perg GmbH, Perg, Austria
H. Moshammer D. Haluza (&)
Institute of Environmental Health, Center for Public Health,
Medical University of Vienna, Kinderspitalgasse 15, 1090
Vienna, Austria

respiratory health [14, 15]. Especially heavy smoking
combined with occupational contact with silica dust had
been recently associated with various severe respiratory
diseases, including lung cancer, silicosis, emphysema, and
tuberculosis infection [16–19].
In Austria, workers exposed to various dusts and other
respiratory hazards are legally obliged to undergo health
examinations at least every second year, including lung
function testing. In a previous cross-sectional study on 994
dust-exposed workers, we reported a decrease in lung
function of cohort subjects compared to the Austrian
population reference values (FVC, -0.4 l; FEV1, -0.5 l;
MEF50, -0.9 l/s) and significant interaction between the
nonoccupational factor of smoking and work-associated
quartz exposure [20].
The aim of the present study was to verify these aforementioned
findings on the impact of smoking behavior and
duration of occupational contact with inorganic dust on
lung function parameters (FVC, FEV1, and MEF50) in a
large study cohort employing a longitudinal design over a
period of 9 years (2002–2010).
For Europe, the Scientific Committee on Occupational
Exposure Limits (SCOEL) has recommended lower occupational
dust exposure standards [21]. In 2007, Austrian
standards were readjusted and are now set at 10 mg/m3 for
inhalable and 5 mg/m3 for respirable dust [22]. Thus, a
second objective of the study was to elucidate the effect of
these stricter limit values for occupational dust exposure
implemented coincidentally during data collection [22].